AdS/BCFT Correspondence and Horndeski Gravity in the Presence of Gauge Fields: Holographic Paramagnetism/Ferromagnetism Phase Transition

IF 5.6 3区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Fortschritte Der Physik-Progress of Physics Pub Date : 2023-09-14 DOI:10.1002/prop.202300008

Fabiano F. Santos, Moisés Bravo-Gaete, Oleksii Sokoliuk, Alexander Baransky

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引用次数: 3

Abstract

This paper presents a dual gravity model for a (2+1)-dimensional system with a limit on finite charge density and temperature, which will be used to study the properties of the holographic phase transition to paramagnetism-ferromagnetism in the presence of Horndeski gravity terms. In our model, the non-zero charge density is supported by a magnetic field. As a result, the radius $ρ / B$ indicates a localized condensate, as the Horndeski gravity parameter is increased, that is represented by γ. Furthermore, such condensate shows quantum Hall-type behavior. This radius is also inversely related to the total action coefficients of our model. It is observed that increasing the Horndeski parameter decreases the critical temperature of the holographic model and leads to the harder formation of the magnetic moment at the bottom of the black hole. However, when removing the magnetic field, the ferromagnetic material presents a disorder of its magnetic moments, which is observed through the entropy of the system. The authors also found that at low temperatures, spontaneous magnetization and ferromagnetic phase transition.

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规范场存在下的AdS/BCFT对应和Horndeski引力:全息顺磁/铁磁相变

本文建立了具有有限电荷密度和温度限制的(2+1)维体系的双引力模型，用于研究存在Horndeski引力项时全息相变到顺磁性-铁磁性的性质。在我们的模型中，非零电荷密度由磁场支持。因此，半径ρ /B$ \rho /B$表示局域凝聚，随着Horndeski重力参数的增加，用γ表示。此外，这种凝聚物表现出量子霍尔型行为。这个半径也与我们模型的总作用系数成反比。观察到，增大Horndeski参数会降低全息模型的临界温度，导致黑洞底部磁矩的形成更加困难。然而，当去除磁场时，铁磁性材料的磁矩呈现出一种无序状态，这是通过系统的熵来观察的。作者还发现在低温下，自发磁化和铁磁相变。

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来源期刊

Fortschritte Der Physik-Progress of Physics 物理-物理：综合

CiteScore

6.70

自引率

7.70%

发文量

审稿时长

6-12 weeks

期刊介绍： The journal Fortschritte der Physik - Progress of Physics is a pure online Journal (since 2013). Fortschritte der Physik - Progress of Physics is devoted to the theoretical and experimental studies of fundamental constituents of matter and their interactions e. g. elementary particle physics, classical and quantum field theory, the theory of gravitation and cosmology, quantum information, thermodynamics and statistics, laser physics and nonlinear dynamics, including chaos and quantum chaos. Generally the papers are review articles with a detailed survey on relevant publications, but original papers of general interest are also published.